Active Learning Under Malicious Mislabeling and Poisoning Attacks
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Deep neural networks usually require large labeled datasets for training to achieve the start-of-the-art performance in many tasks, such as image classification and natural language processing. Though a lot of data is created each day by active Internet users through various distributed systems across the world, most of these data are unlabeled and are vulnerable to data poisoning attacks. In this paper, we develop an efficient active learning method that requires fewer labeled instances and incorporates the technique of adversarial retraining in which additional labeled artificial data are generated without increasing the labeling budget. The generated adversarial examples also provide a way to measure the vulnerability of the model. To check the performance of the proposed method under an adversarial setting, i.e., malicious mislabeling and data poisoning attacks, we perform an extensive evaluation on the reduced CIFAR-10 dataset, which contains only two classes: 'airplane' and 'frog' by using the private cloud on campus. Our experimental results demonstrate that the proposed active learning method is efficient for defending against malicious mislabeling and data poisoning attacks. Specifically, whereas the baseline active learning method based on the random sampling strategy performs poorly (about 50 attack, the proposed active learning method can achieve the desired accuracy of 89
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